fast impulse generation support, inter-computer communication, system and power management, programming languages for power
systems software development, programming techniques, software development tools (simulators, emulators, monitors), input
signal conditioning circuitry, conversion from analog signals to digital processing, time sampling, amplitude quatization,
power electronics control block design and implementation, difference equations and control algorithms, fixed and floating
point calculations, debugging methods, program parametrization, guides and rules for implementation and application of power
system control computers. Real time operating system, scheduler, dispatcher and another features and guides for application

Requirements:

Active participation on labs, presentation of own lab works

Syllabus of lectures:

1. Power electronics control computer structure

2. Digital signal processor and ALU added features for fast real time calculations